A connector, having a shunt structure, includes an insulating housing, a shunt socket and a plurality of electrical terminals. The insulating housing has a first side surface and a second side surface. The first side surface has an input interface provided for insertion of a power supply component along a first direction. The input interface is a rectangle, having a longitudinal direction parallel to a second direction. The first direction is perpendicular to the second direction. The second side surface has an output interface. The shunt socket is located on a third side surface and has a clamping portion on a side wall. Each electrical terminal has a contact portion and a leg. Each contact portion extends into the input interface, and each of the legs extends to the output interface. Some electrical terminals have a shunt contact portion, extending into the shunt socket and electrically connected therewith.

A circuit structure includes a first busbar, a wiring board located on the first busbar and having an open hole, a conductive raised part protruding into the open hole from the first busbar, and a first electronic component having a first connection terminal located on the wiring board. The first connection terminal is electrically connected to the raised part in the open hole.

A circuit structure includes a first busbar, a wiring board located on the first busbar and having an open hole, a conductive raised part protruding into the open hole from the first busbar, and a first electronic component having a first connection terminal located on the wiring board. The first connection terminal is electrically connected to the raised part in the open hole.

A connection device for the connection of a conductor end includes a housing having a slotted link, a busbar section having a slotted link aligned with the housing slotted link, an d clamping spring assembly rotatably connected with the housing and operable between an open position and a contact position with the conductor end. A rotary lever assembly including a rotary lever element is operably connected with the clamping spring assembly. The rotary lever element has a cam section and a control curve section on which the clamping spring assembly slides during movement into the contact position. A clamping device is arranged on the cam section and is retained by the housing and busbar slotted links.

A connection device for the connection of a conductor end includes a housing having a slotted link, a busbar section having a slotted link aligned with the housing slotted link, an d clamping spring assembly rotatably connected with the housing and operable between an open position and a contact position with the conductor end. A rotary lever assembly including a rotary lever element is operably connected with the clamping spring assembly. The rotary lever element has a cam section and a control curve section on which the clamping spring assembly slides during movement into the contact position. A clamping device is arranged on the cam section and is retained by the housing and busbar slotted links.

A connecting terminal for connecting at least one first electrical conductor to a second electrical conductor, the connecting terminal including a housing with a first conductor insertion opening for inserting the first electrical conductor and with a second conductor insertion opening for inserting the second electrical conductor, the first and the second conductor insertion openings being arranged on opposite sides of the housing, the connecting terminal including a contact insert, which includes a first clamping spring, a second clamping spring and a busbar, the first and the second clamping springs being fastened in end areas of the busbar facing away from each other, and a free space being present between the first and the second clamping springs, the connecting terminal including an inner piece as a further separate component, which is arranged at least with a middle section predominantly in the free space between the first and second clamping springs.

An integrated photovoltaic cable having a connecting terminal and a housing injection-molded on the connecting terminal. The connecting terminal has a connecting sheet, a through hole, and a plurality of U-shape groove sheets. Exposed conductors obtained by peeling front ends of the photovoltaic cable are respectively placed into corresponding U-shape groove sheets and crimped by a crimping plier. A manufacturing method for manufacturing the integrated photovoltaic cable includes three steps of manufacturing a connecting terminal, crimping photovoltaic wires, and injection molding a housing. An improvement of the cable connecting structure simplifies the production, improves the connecting quality, and reduces a volume of an adapter. The conductor end and the U-shape groove are firmly and conveniently connected to ensure the connection quality, reduce a contact resistance of a connecting wire, and cause a smaller volume of the adapter.

A joint connector 10 is provided with a joint terminal 12, and a housing 13 configured to accommodate the joint terminal 12. The joint terminal 12 includes a plurality of branch portions 16, a plurality of wire connecting portions 19 respectively continuous with the plurality of branch portions 16 and to be connected to wires 11, and a coupling portion 15 electrically connecting the plurality of branch portions 16 by coupling the plurality of branch portions 16. The wire connecting portion 19 includes a connecting piece having a contact surface configured to contact the wire 11 and a pressing portion 17 configured to press the connecting piece against the wire 11 by coming into contact with the connecting piece.

The present disclosure relates to a detonation connector having an electric wire mounting structure, the detonation connector includes: an electrically conductive wire-connecting bracket member having a plurality of electric wire mounting gloves to which a leg line or a leading line is mounted; a lower casing member at which the wire-connecting bracket member is positioned and an upper casing member covering the lower casing member, wherein the lower casing member may be provided with an opening through which a leg line passes, and the lower casing member is provided with a leg line mounting part therein. Accordingly, a stable connection state in the connector is maintained by fixing a double coated electric wire or a single coated electric wire in a state of being mounted to an opening of the detonation connector and the connection stability and the connection reliability of the leg line and the leading line are secured.

A conductor joint (1) is provided for connecting two conductors along a longitudinal direction. The conductor joint comprises a first segment having a first segment end (202) adapted connecting to an end portion of a first conductor and a second segment (300) comprising a second segment end (302) relative to the longitudinal direction adapted for receiving a second conductor end of a second conductor. The second segment further has an opposite second segment end (304) fixed, or forming an integral part with, an opposite first segment end (204) of the first segment (200), a tubular sleeve (310) and a core rod (320) wherein ends (310a, 320a) of the tubular sleeve (310) and the core rod (320) are arranged with a radial offset forming a sleeve opening for receiving at the end portion of the second conductor end of the second conductor.